| Literature DB >> 16090691 |
L V Jørgensen1, M Amoretti, G Bonomi, P D Bowe, C Canali, C Carraro, C L Cesar, M Charlton, M Doser, A Fontana, M C Fujiwara, R Funakoshi, P Genova, J S Hangst, R S Hayano, A Kellerbauer, V Lagomarsino, R Landua, E Lodi Rizzini, M Macrì, N Madsen, D Mitchard, P Montagna, A Rotondi, G Testera, A Variola, L Venturelli, D P van der Werf, Y Yamazaki.
Abstract
We have developed a new method, based on the ballistic transfer of preaccumulated plasmas, to obtain large and dense positron plasmas in a cryogenic environment. The method involves transferring plasmas emanating from a region with a low magnetic field (0.14 T) and relatively high pressure (10(-9) mbar) into a 15 K Penning-Malmberg trap immersed in a 3 T magnetic field with a base pressure better than 10(-13) mbar. The achieved positron accumulation rate in the high field cryogenic trap is more than one and a half orders of magnitude higher than the previous most efficient UHV compatible scheme. Subsequent stacking resulted in a plasma containing more than 1.2 x 10(9) positrons, which is a factor 4 higher than previously reported. Using a rotating wall electric field, plasmas containing about 20 x 10(6) positrons were compressed to a density of 2.6 x 10(10) cm(-3). This is a factor of 6 improvement over earlier measurements.Year: 2005 PMID: 16090691 DOI: 10.1103/PhysRevLett.95.025002
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161